Introduction
Ebstein’s anomaly comprises<1% of CHDs cases Reference Liu, Cao and Cui1 and is characterised as apical displacement of the tricuspid valve with a varying degree of tricuspid regurgitation. As a result, left ventricular volume is often smaller than right ventricular volume in patients with Ebstein’s anomaly. Reference Liu, Cao and Cui1
Similarly, coarctation of the aorta is associated with a small left ventricle. Reference Familiari, Morlando and Khalil2 However, an association between coarctation of the aorta and Ebstein’s anomaly is extremely rare. Reference Attenhofer Jost, Connolly, O.’Leary, Warnes, Tajik and Seward3
Here, we present a rare case of Ebstein’s anomaly with coarctation of the aorta and a bicuspid aortic valve. In this report, the association between left ventricular volume, severity of Ebstein’s anomaly, and left heart obstruction was evaluated by comparing the foetal echocardiographic parameters of Ebstein’s anomaly cases with and without left heart obstruction.
Case presentation
A 33-year-old woman (gravida 5, para 2) was referred to our hospital due to foetal growth retardation at 29 weeks of gestation. At gestational week 30, Ebstein’s anomaly was observed on foetal echocardiography. Apical displacement of the septal and anterior tricuspid leaflets was shown, with a Celermajer score of 0.73; however, tricuspid valve regurgitation was mild. Normal antegrade flow from the RV to the pulmonary artery at the velocity of 65cm/s and normal antegrade flow in the ductus arteriosus was seen. The left side of the heart was considered hypoplastic (mitral valve diameter Z-score, −2.25; left ventricular width Z-score, −3.78; left ventricular length Z-score, −2.10; aortic valve diameter Z-score, −2.60), whereas the aortic isthmus diameter was not hypoplastic (3.2 mm; Z-score, −0.83; Fig 1a). At gestational week 36, aortic isthmus narrowing (diameter, 2.6 mm; Z-score, −3.74) and diastolic reverse flow in the aortic arch was identified. Coarctation of the aorta was suspected (Figure 1b) (Videos; Supplementary Figure S1, S2).
At birth (38 weeks and 4 days of gestation), the female neonate weighed 2082 g, with an oxygen saturation level of 97%. The Apgar scores were 8 and 9 at 1 min and 5 min, respectively, and no tachypnoea was noted. Post-natal transthoracic echocardiography confirmed the presence of Ebstein’s anomaly with mild tricuspid valve regurgitation. The aortic valve was bicuspid but not stenotic. Additionally, the left ventricle was mildly hypoplastic with an end-diastolic diameter of 12.6 mm (Z-score, −2.82). Coarctation of the aorta was suspected because the aortic isthmus measured only 2 mm (Z-score, −4.7). The patient was monitored accordingly. At 1 day old, a 30-mmHg pressure difference between the upper and lower extremities was observed, along with closure of the ductus arteriosus. Contrast-enhanced CT (three-dimensional reconstruction in Fig 1c) confirmed a diagnosis of coarctation of the aorta. Treatment with prostaglandin E1 was initiated, and aortic arch reconstruction was performed on post-natal day 2. Postoperative echocardiography revealed an unchanged degree of tricuspid regurgitation but an improved left ventricular end-diastolic diameter of 17.5 mm (Z-score, 0.67). The patient was discharged without complications.
The foetal echocardiographic parameters of six patients who had been prenatally diagnosed with Ebstein’s anomaly at our institution between 2013 and 2021 are shown in Table 1. The left ventricular diameter Z-score was extremely small in the present case when compared with previous Ebstein’s anomaly cases without a bicuspid aortic valve or coarctation of the aorta. Additionally, the right-to-left ventricular diameter ratio was considerably greater in the present case than in previous cases.
CoA = coarctation of the aorta; CTAR = cardiothoracic area ratio; GA = gestational age; LV = left ventricle; RV = right ventricle; TR = tricuspid valve regurgitation; NA = not available.
Discussion
Here, we present an extremely rare case of Ebstein’s anomaly with a bicuspid aortic valve and coarctation of the aorta. The patient had a markedly smaller left ventricle when compared with previous cases of Ebstein’s anomaly observed at our institution without left heart obstruction.
Some cases of Ebstein’s anomaly with coarctation of the aorta and congenitally corrected transposition of the great arteries have been reported; Reference Celermajer, Cullen, Deanfield and Sullivan4 however, Ebstein’s anomaly with coarctation of the aorta in atrioventricular- and ventriculoarterial-concordant hearts is extremely rare. Attenhofer Jost et al. reported that of 106 patients with Ebstein’s anomaly, eight (8%) had a bicuspid aortic valve and none had coarctation of the aorta. Reference Attenhofer Jost, Connolly, O.’Leary, Warnes, Tajik and Seward3 To our knowledge, only five cases of Ebstein’s anomaly with coarctation of the aorta in atrioventricular- and ventriculoarterial-concordant hearts have been reported, including the present case. Reference Erickson and Cocalis6–Reference Hiramatsu, Imai, Kurosawa, Kawada, Matsuo and Koh8
Previous studies have reported that greater right-to-left ventricular ratios were associated with worse haemodynamics and/or prognoses in foetuses with Ebstein’s anomaly. Reference Liu, Cao and Cui1,Reference Andrews, Tibby, Sharland and Simpson9 Liu et al. compared foetal echocardiographic parameters between healthy foetuses, foetuses with tricuspid malformations including tricuspid valve dysplasia or Ebstein’s anomaly and normal pulmonary flow, and f0etuses with tricuspid malformations and reduced or absent pulmonary flow. Reference Liu, Cao and Cui1 In the third trimester, the right-to-left ventricular ratios were 1.03 (1.00–1.07), 1.10 (1.05–1.50), and 1.31 (1.20–1.60), respectively. This result indicates that cases with tricuspid malformations had greater right-to-left ventricular ratios than healthy foetuses. The Z-scores for the left ventricular end-diastolic diameter were 0.06 ± 0.54, 0.12 ± 0.56, and 0.20 ± 0.97, respectively, and no significant difference in this score was identified between healthy foetuses and foetuses with tricuspid malformations and abnormal pulmonary flow. These results indicated that the left ventricle was relatively small compared with the right ventricle in patients with Ebstein’s anomaly, but the absolute size did not significantly differ from the normal range.
In contrast, the right-to-left ventricular ratio is known to be a predictive foetal echocardiographic parameter for the diagnosis of coarctation of the aorta. Reference Familiari, Morlando and Khalil2 The present case demonstrated a considerably greater right-to-left ventricular ratio and smaller left ventricular diameter (based on the Z-score) than other cases of Ebstein’s anomaly without coarctation of the aorta. In foetal Ebstein’s anomaly with a markedly small left ventricle, concurrent coarctation of the aorta may need to be ruled out.
In patients with Ebstein’s anomaly or severe tricuspid malformations, the left ventricle plays a crucial role in supporting pulmonary circulation. However, in the present case, foetal heart failure was not observed despite the small left ventricle and a Celermajer score of grade 2, which typically do not indicate a favourable prognosis. Reference Celermajer, Cullen, Sullivan, Spiegelhalter, Wyse and Deanfield10 The mild tricuspid regurgitation observed in the present case may have made it possible to sufficiently maintain foetal circulation despite the suboptimal Celermajer score and small left ventricle.
Supplementary material
The supplementary material for this article can be found at https://doi.org/10.1017/S1047951124026404.
Data availability statement
The datasets used in the current study are available from the corresponding author upon reasonable request.
Acknowledgements
The authors gratefully acknowledge the valuable support received from Mitsuhiro Fujino, MD; Takeshi Sasaki, MD; Kae Nakamura, MD; Yoko Yoshida, MD; Tsugutoshi Suzuki, MD, PhD; and Koji Kagisaki, MD.
Author’s contributions
YK drafted the manuscript. YK and YM critically reviewed and approved the manuscript, and EE finally approved the manuscript.
Financial support
This research received no specific grant from any funding agency, commercial, or not-for-profit sectors.
Competing interests
None.
Ethical standard
This study was approved by the Institutional Review Board of Osaka City General Hospital (approval number: 2012135). Informed consent was obtained from the patient’s guardian in the form of an opt-out clause on Osaka City General Hospital’s website.